For code such as this:
int res = 0;
for (int i = 0; i < 32; i++)
{
res += 1 << i;
}
This code is generated (release mode, no debugger attached, 64bit):
xor edx,edx
mov r8d,1
_loop:
lea ecx,[r8-1]
and ecx,1Fh ; why?
mov eax,1
shl eax,cl
add edx,eax
mov ecx,r8d
and ecx,1Fh ; why?
mov eax,1
shl eax,cl
add edx,eax
lea ecx,[r8+1]
and ecx,1Fh ; why?
mov eax,1
shl eax,cl
add edx,eax
lea ecx,[r8+2]
and ecx,1Fh ; why?
mov eax,1
shl eax,cl
add edx,eax
add r8d,4
cmp r8d,21h
jl _loop
Now I can see the point of most instructions there, but what's up with the AND instructions? ecx will never be more than 0x1F in this code anyway, but I excuse it for not noticing that (and also for not noticing that the result is a constant), it's not an ahead-of-time compiler that can afford to spend much time on analysis after all. But more importantly, SHL with a 32bit operand masks cl by 0x1F already. So it seems to me that these ANDs are entirely useless. Why are they generated? Do they have some purpose I'm missing?
cl
register get populated. Is theand
operation the fastest way for it to populate that perhaps?